Your search keyword '"Jennie Erichsen"' showing total 2 results

1. Comprehensive SNP array study of frequently used neuroblastoma cell lines; copy neutral loss of heterozygosity is common in the cell lines but uncommon in primary tumors

Author

Helena Carén, Jennie Erichsen, Per Kogner, Rose-Marie Sjöberg, Tommy Martinsson, Hanna Kryh, and Jonas Abrahamsson

Subjects

Tumor suppressor gene, lcsh:QH426-470, lcsh:Biotechnology, Gene Dosage, Loss of Heterozygosity, Biology, Allelic Imbalance, Gene dosage, Polymorphism, Single Nucleotide, Loss of heterozygosity, Neuroblastoma, Cell Line, Tumor, lcsh:TP248.13-248.65, medicine, Genetics, Humans, Oligonucleotide Array Sequence Analysis, Ploidies, Cancer, medicine.disease, Molecular biology, lcsh:Genetics, Cell culture, SNP array, Research Article, Biotechnology

Abstract

Background Copy neutral loss of heterozygosity (CN-LOH) refers to a special case of LOH occurring without any resulting loss in copy number. These alterations is sometimes seen in tumors as a way to inactivate a tumor suppressor gene and have been found to be important in several types of cancer. Results We have used high density single nucleotide polymorphism arrays in order to investigate the frequency and distribution of CN-LOH and other allelic imbalances in neuroblastoma (NB) tumors and cell lines. Our results show that the frequency of these near-CN-LOH events is significantly higher in the cell lines compared to the primary tumors and that the types of CN-LOH differ between the groups. We also show that the low-risk neuroblastomas that are generally considered to have a "triploid karyotype" often present with a complex numerical karyotype (no segmental changes) with 2-5 copies of each chromosome. Furthermore a comparison has been made between the three related cell lines SK-N-SH, SH-EP and SH-SY5Y with respect to overall genetic aberrations, and several aberrations unique to each of the cell lines has been found. Conclusions We have shown that the NB tumors analyzed contain several interesting allelic imbalances that would either go unnoticed or be misinterpreted using other genome-wide techniques. These findings indicate that the genetics underlying NB might be even more complex than previously known and that SNP arrays are important analysis tools. We have also showed that these near-CN-LOH events are more frequently seen in NB cell lines compared to NB tumors and that a set of highly related cell lines have continued to evolve secondary to the subcloning event. Taken together our analysis highlights that cell lines in many cases differ substantially from the primary tumors they are thought to represent, and that caution should be taken when drawing conclusions from cell line-based studies.

Published

2011

2. High-resolution array copy number analyses for detection of deletion, gain, amplification and copy-neutral LOH in primary neuroblastoma tumors: Four cases of homozygous deletions of the CDKN2A gene

Author

Jennie Erichsen, Helena Carén, Rose-Marie Sjöberg, Charlotta Enerbäck, Jonas Abrahamsson, Linda Olsson, Tommy Martinsson, and Per Kogner

Subjects

lcsh:QH426-470, lcsh:Biotechnology, Copy number analysis, Gene Dosage, Ligase Chain Reaction, Loss of Heterozygosity, Biology, N-Myc Proto-Oncogene Protein, Gene dosage, Polymorphism, Single Nucleotide, Loss of heterozygosity, Neuroblastoma, Cell Line, Tumor, lcsh:TP248.13-248.65, Genetics, medicine, Humans, Child, neoplasms, Chromosome 12, Cyclin-Dependent Kinase Inhibitor p16, Oligonucleotide Array Sequence Analysis, Gene Rearrangement, Oncogene Proteins, Homozygote, Gene Amplification, Chromosome Mapping, Computational Biology, Nuclear Proteins, Gene rearrangement, Amplicon, medicine.disease, Molecular biology, lcsh:Genetics, Chromosome Deletion, Chromosomes, Human, Pair 9, Gene Deletion, Biotechnology, Research Article

Abstract

Background Neuroblastoma is a very heterogeneous pediatric tumor of the sympathetic nervous system showing clinically significant patterns of genetic alterations. Favorable tumors usually have near-triploid karyotypes with few structural rearrangements. Aggressive stage 4 tumors often have near-diploid or near-tetraploid karyotypes and structural rearrangements. Whole genome approaches for analysis of genome-wide copy number have been used to analyze chromosomal abnormalities in tumor samples. We have used array-based copy number analysis using oligonucleotide single nucleotide polymorphisms (SNP) arrays to analyze the chromosomal structure of a large number of neuroblastoma tumors of different clinical and biological subsets. Results Ninety-two neuroblastoma tumors were analyzed with 50 K and/or 250 K SNP arrays from Affymetrix, using CNAG3.0 software. Thirty percent of the tumors harbored 1p deletion, 22% deletion of 11q, 26% had MYCN amplification and 45% 17q gain. Most of the tumors with 1p deletion were found among those with MYCN amplification. Loss of 11q was most commonly seen in tumors without MYCN amplification. In the case of MYCN amplification, two types were identified. One type displayed simple continuous amplicons; the other type harbored more complex rearrangements. MYCN was the only common gene in all cases with amplification. Complex amplification on chromosome 12 was detected in two tumors and three different overlapping regions of amplification were identified. Two regions with homozygous deletions, four cases with CDKN2A deletions in 9p and one case with deletion on 3p (the gene RBMS3) were also detected in the tumors. Conclusion SNP arrays provide useful tools for high-resolution characterization of significant chromosomal rearrangements in neuroblastoma tumors. The mapping arrays from Affymetrix provide both copy number and allele-specific information at a resolution of 10–12 kb. Chromosome 9p, especially the gene CDKN2A, is subject to homozygous (four cases) and heterozygous deletions (five cases) in neuroblastoma tumors.

Published

2008